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| 20090090073 | Cable management system for a raised floor grid system - A cable management system for managing electrical cables in a raised floor grid system is provided. The cable management system includes a cable enclosure including side walls and a base together defining an enclosure cavity. Each of the side walls defines a cable opening and a plurality of bracket openings in communication with the enclosure cavity. The cable management system also includes a sealing assembly installed in each of the cable openings, and a plurality of equipment brackets mountable to the sidewalls via the bracket openings, which are configured to enable mounting of the equipment brackets in vertical and angled orientations. The cable management system further includes a plurality of support brackets connectable to support structure of the raised floor grid system for supporting the cable enclosure on the support structure. The cable enclosure can be installed in the raised floor grid system by removing only a single floor tile. | 04-09-2009 |
| 20100000758 | In-Ceiling Zone Cabling Enclosure - An in-ceiling cabling enclosure for supporting communications network equipment and cables interconnecting the network equipment including a front wall a rear wall and two side walls extending between the front wall and the rear wall creating a volume inside the enclosure. An access door assembly is pivotally connected to either the rear wall or the two side walls. The access door assembly pivots through an arc of ninety degrees between a first position opening the enclosure and a second position closing the enclosure. An equipment mount plate is attached to an interior portion of the access door assembly, and opposed equipment mount rails are removably attached to the equipment mount plate. The equipment mount rails are adapted to receive the network equipment and to secure the network equipment to the access door assembly. A cable slack management tray extends between the opposed equipment mount rails, and the slack management tray has a surface adapted to support and maintain the position and the contour of cable bundles located in the enclosure. A thermal management system is also disposed in the housing to provide efficient exhaust of hot air generated by active equipment in the enclosure to the space outside of the enclosure. | 01-07-2010 |
| 20110000710 | IN-CEILING ZONE CABLING ENCLOSURE - An in-ceiling cabling enclosure for supporting communications network equipment and cables interconnecting the network equipment including a front wall, a rear wall, and two side walls extending between the front wall and the rear wall creating a volume inside the enclosure. An access door assembly is pivotally connected to either the rear wall or the two side walls. The access door assembly pivots through an arc of ninety degrees between a first position opening the enclosure and a second position closing the enclosure. An equipment mount plate is attached to an interior portion of the access door assembly, and opposed equipment mount rails are removably attached to the equipment mount plate. The equipment mount rails are adapted to receive the network equipment and to secure the network equipment to the access door assembly. A cable slack management tray extends between the opposed equipment mount rails, and the slack management tray has a surface adapted to support and maintain the position and the contour of cable bundles located in the enclosure. A thermal management system is also disposed in the housing to provide efficient exhaust of hot air generated by active equipment in the enclosure to the space outside of the enclosure. | 01-06-2011 |
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| 20090044370 | REMOVING DEBRIS FROM CLEANING ROBOTS - A cleaning robot system includes a robot and a robot maintenance station. The robot includes a chassis, a drive system configured to maneuver the robot as directed by a controller, and a cleaning assembly including a cleaning assembly housing and a driven cleaning roller. The robot maintenance station includes a station housing and a docking platform configured to support the robot when docked. A mechanical agitator engages the roller of the robot with the robot docked. The agitator includes an agitator comb having multiple teeth configured to remove accumulated debris from the roller as the agitator comb and roller are moved relative to one another. The robot maintenance station includes a collection bin arranged to receive and hold debris removed by the mechanical agitator. | 02-19-2009 |
| 20100011529 | REMOVING DEBRIS FROM CLEANING ROBOTS - A cleaning robot system includes a robot and a robot maintenance station. The robot includes a chassis, a drive system configured to maneuver the robot as directed by a controller, and a cleaning assembly including a cleaning assembly housing and a driven cleaning roller. The robot maintenance station includes a station housing and a docking platform configured to support the robot when docked. A mechanical agitator engages the roller of the robot with the robot docked. The agitator includes an agitator comb having multiple teeth configured to remove accumulated debris from the roller as the agitator comb and roller are moved relative to one another. The robot maintenance station includes a collection bin arranged to receive and hold debris removed by the mechanical agitator. | 01-21-2010 |
| 20100107355 | Removing Debris From Cleaning Robots - A cleaning robot system including a robot and a robot maintenance station. The robot includes a robot body, a drive system, a cleaning assembly, and a cleaning bin carried by the robot body and configured to receive debris agitated by the cleaning assembly. The robot maintenance station includes a station housing configured to receive the robot for maintenance. The station housing has an evacuation passageway exposed to a top portion of the received robot. The robot maintenance station also includes an air mover in pneumatic communication with the evacuation passageway and a collection bin carried by the station housing and in pneumatic communication with the evacuation passageway. The station housing and the robot body fluidly connect the evacuation passageway to the cleaning bin of the received robot. The air mover evacuates debris held in the robot cleaning bin to the collection bin through the evacuation passageway. | 05-06-2010 |
| 20100112932 | Ridge Vent - Ridge vents configured to cover an open ridge of a roof and allow a flow of air to exit from the open ridge through the ridge vents are provided. The ridge vents include a center portion having a length and a plurality of grooves. Left and right portions are connected to the center portion. The center portion is configured to flex along it's length, thereby forming a ridge vent angle between the left and right portions. The formed ridge vent angle is configured to correspond with a slope between roof decks defining the open ridge. | 05-06-2010 |
| 20120084937 | Removing Debris From Cleaning Robots - A cleaning robot system including a robot and a robot maintenance station. The robot includes a robot body, a drive system, a cleaning assembly, and a cleaning bin carried by the robot body and configured to receive debris agitated by the cleaning assembly. The robot maintenance station includes a station housing configured to receive the robot for maintenance. The station housing has an evacuation passageway exposed to a top portion of the received robot. The robot maintenance station also includes an air mover in pneumatic communication with the evacuation passageway and a collection bin carried by the station housing and in pneumatic communication with the evacuation passageway. The station housing and the robot body fluidly connect the evacuation passageway to the cleaning bin of the received robot. The air mover evacuates debris held in the robot cleaning bin to the collection bin through the evacuation passageway. | 04-12-2012 |
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| 20100315899 | SELF-STABILIZING DYNAMIC DIAPHRAGM FOR BROAD BANDWIDTH ACOUSTIC ENERGY SOURCE - An apparatus for estimating a property in a borehole penetrating the earth, the apparatus having: a carrier configured to be disposed in the borehole; and an acoustic transducer disposed at the carrier and configured to at least one of transmit and receive an acoustic wave used to estimate the property, the acoustic transducer comprising an acoustic diaphragm; wherein the acoustic diaphragm includes a surface in communication with a plurality of structural members configured to increase the rigidity of the surface, the surface being configured to interface with a medium that propagates the acoustic wave. | 12-16-2010 |
| 20120069708 | APPARATUS AND METHOD FOR GENERATING BROAD BANDWIDTH ACOUSTIC ENERGY - An acoustic transmitter includes: an acoustic diaphragm configured to transmit acoustic waves into a medium; a piezoelectric actuator assembly configured to deform in an axial direction in response to an applied electrical signal; and a highly incompressible elastic material disposed between the piezoelectric actuator and the acoustic diaphragm and configured to transmit pressure waves to the acoustic diaphragm in response to motion of the piezoelectric actuator. | 03-22-2012 |
| 20120090837 | Acoustic Transducers With Dynamic Frequency Range - In one aspect, an apparatus for use downhole is provided, which apparatus, in one embodiment, includes an acoustic transducer having a first member in pressure communication with a confined fluid, wherein a displacement of the first member causes a volume change in the confined fluid that amplifies displacement of a second member to generate a pressure wave in medium. | 04-19-2012 |
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| 20100070473 | Distributed Data Store with a Designated Master to Ensure Consistency - One machine, i.e. computer, on a network, such as associated with a distributed database, e.g. a data store or a partition thereof, is designated as a master, which alone can issue system orderstamps for transactional operations, while other machines associated with the data store or partition thereof act as any of clients that submit transactions to the master, or as slaves that adhere to updates from the master. If a transactional operation on the distributed database is attempted on a client machine, and communication cannot be established with the master machine, the transaction fails. The distributed data store having such a master provides a method that decreases transaction time across the distributed database, and maintains consistent data between separate machines. | 03-18-2010 |
| 20110022816 | REDUNDANT, MULTI-DIMENSIONAL DATA PARTITIONING: METHODS, PROGRAM PRODUCT AND SYSTEM - Horizontal partitioning can handle a transaction by accessing a single node only if the transaction is restricted along the single partitioned dimension. Composite partitioning allows for partitioning along more than one dimension, but can only handle a transaction by accessing a single node if the transaction is limited along all partitioned dimensions. A partitioning method partitions a tuple space along more than one dimension and, by storing tuples redundantly, allows transactions restricted along one or more of the partitioned dimensions to be handled by accessing a single node. Other embodiments include a computer program product and a system for partitioning a tuple space. | 01-27-2011 |
